ESR studies of electrochemically prepared poly(3-methylthienylene) films

The e †ect of surface resistance of substrate and concentration of monomer on the properties of electrochemically deposited poly(N-methyl aniline) Ðlms has been investigated. The UVÈvisible spectra of the Ðlms show enhanced selectivity in the formation of the conducting phase (approximately 860 nm)

This article was originally printed with some errors, which we regret. They are corrected below: 1. On page 4001, in the left column, the sentence that starts on line 7 should read: The energy band gap was estimated to be 2.39 eV, which is higher than that of chemically synthesized poly(An-FAn). 30

## Abstract Poly(aniline‐__co__‐fluoroaniline) [poly(An‐FAn)] films were electrochemically deposited on indium tin oxide glass plates. The characterization of these conducting copolymer films was carried out with ultraviolet–visible and Fourier transform infrared techniques. The enzyme glucose oxid

## Abstract Poly(3‐methlthiophene) films were prepared under “silent” and “sono‐electrochemical” potentiostatic (SEP) conditions. A three‐electrode one‐compartment sono‐cell was used with a working platinum disc electrode. The sono‐electrochemically formed polymer films were deposited with differen

The conversion of the precursor into poly(phenylenevinylene) (PPV) was studied by means of photoelectron spectroscopy (XPS) and electron spin resonance (ESR) on precursor films synthesized from the polymerization of pxylene-tetrahydrophenium halides. The sulfonium precursor containing chlorine or br